// Copyright (c) 2015 Marshall A. Greenblatt. All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
//    * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//    * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
//    * Neither the name of Google Inc. nor the name Chromium Embedded
// Framework nor the names of its contributors may be used to endorse
// or promote products derived from this software without specific prior
// written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
// ---------------------------------------------------------------------------
//
// The contents of this file must follow a specific format in order to
// support the CEF translator tool. See the translator.README.txt file in the
// tools directory for more information.
//
// THIS FILE IS FOR TESTING PURPOSES ONLY.
//
// The APIs defined in this file are for testing purposes only. They will not be
// exposed via the binary distribution. All classes in this file must include
// the 'no_debugct_check' attribute to avoid problems when building the binary
// distribution.
//

#ifndef CEF_INCLUDE_TEST_CEF_TEST_H_
#define CEF_INCLUDE_TEST_CEF_TEST_H_
#pragma once

#include <map>
#include <vector>

#include "include/cef_base.h"

class CefTranslatorTestHandler;
class CefTranslatorTestHandlerChild;
class CefTranslatorTestObject;
class CefTranslatorTestObjectChild;

// Test values.
#define TEST_INT_VAL      5
#define TEST_INT_VAL2     60
#define TEST_BOOL_VAL     true
#define TEST_DOUBLE_VAL   4.543
#define TEST_LONG_VAL     -65
#define TEST_SIZET_VAL    3U
#define TEST_STRING_VAL   "My test string"
#define TEST_STRING_VAL2  "My 2nd test string"
#define TEST_STRING_VAL3  "My 3rd test string"
#define TEST_STRING_KEY   "key0"
#define TEST_STRING_KEY2  "key1"
#define TEST_STRING_KEY3  "key2"
#define TEST_X_VAL        44
#define TEST_Y_VAL        754
#define TEST_X_VAL2       900
#define TEST_Y_VAL2       300

///
// Class for testing all of the possible data transfer types.
///
/*--cef(source=library,no_debugct_check)--*/
class CefTranslatorTest : public CefBase {
 public:
  ///
  // Create the test object.
  ///
  /*--cef()--*/
  static CefRefPtr<CefTranslatorTest> Create();


  // PRIMITIVE VALUES

  ///
  // Return a void value.
  ///
  /*--cef()--*/
  virtual void GetVoid() =0;

  ///
  // Return a bool value.
  ///
  /*--cef()--*/
  virtual bool GetBool() =0;

  ///
  // Return an int value.
  ///
  /*--cef()--*/
  virtual int GetInt() =0;

  ///
  // Return a double value.
  ///
  /*--cef()--*/
  virtual double GetDouble() =0;

  ///
  // Return a long value.
  ///
  /*--cef()--*/
  virtual long GetLong() =0;

  ///
  // Return a size_t value.
  ///
  /*--cef()--*/
  virtual size_t GetSizet() =0;

  ///
  // Set a void value.
  ///
  /*--cef()--*/
  virtual bool SetVoid() =0;

  ///
  // Set a bool value.
  ///
  /*--cef()--*/
  virtual bool SetBool(bool val) =0;

  ///
  // Set an int value.
  ///
  /*--cef()--*/
  virtual bool SetInt(int val) =0;

  ///
  // Set a double value.
  ///
  /*--cef()--*/
  virtual bool SetDouble(double val) =0;

  ///
  // Set a long value.
  ///
  /*--cef()--*/
  virtual bool SetLong(long val) =0;

  ///
  // Set a size_t value.
  ///
  /*--cef()--*/
  virtual bool SetSizet(size_t val) =0;


  // PRIMITIVE LIST VALUES

  // Test both with and without a typedef.
  typedef std::vector<int> IntList;

  ///
  // Set a int list value.
  ///
  /*--cef()--*/
  virtual bool SetIntList(const std::vector<int>& val) =0;

  ///
  // Return an int list value by out-param.
  ///
  /*--cef(count_func=val:GetIntListSize)--*/
  virtual bool GetIntListByRef(IntList& val) =0;

  ///
  // Return the number of points that will be output above.
  ///
  /*--cef()--*/
  virtual size_t GetIntListSize() = 0;


  // STRING VALUES

  ///
  // Return a string value.
  ///
  /*--cef()--*/
  virtual CefString GetString() =0;

  ///
  // Set a string value.
  ///
  /*--cef()--*/
  virtual bool SetString(const CefString& val) =0;

  ///
  // Return a string value by out-param.
  ///
  /*--cef()--*/
  virtual void GetStringByRef(CefString& val) =0;


  // STRING LIST VALUES

  // Test both with and without a typedef.
  typedef std::vector<CefString> StringList;

  ///
  // Set a string list value.
  ///
  /*--cef()--*/
  virtual bool SetStringList(const std::vector<CefString>& val) =0;

  ///
  // Return a string list value by out-param.
  ///
  /*--cef()--*/
  virtual bool GetStringListByRef(StringList& val) =0;


  // STRING MAP VALUES

  // Test both with and without a typedef.
  typedef std::map<CefString, CefString> StringMap;

  ///
  // Set a string map value.
  ///
  /*--cef()--*/
  virtual bool SetStringMap(const StringMap& val) =0;

  ///
  // Return a string map value by out-param.
  ///
  /*--cef()--*/
  virtual bool GetStringMapByRef(std::map<CefString, CefString>& val) =0;


  // STRING MULTIMAP VALUES

  // Test both with and without a typedef.
  typedef std::multimap<CefString, CefString> StringMultimap;

  ///
  // Set a string multimap value.
  ///
  /*--cef()--*/
  virtual bool SetStringMultimap(
      const std::multimap<CefString, CefString>& val) =0;

  ///
  // Return a string multimap value by out-param.
  ///
  /*--cef()--*/
  virtual bool GetStringMultimapByRef(StringMultimap& val) =0;


  // STRUCT VALUES

  ///
  // Return a point value.
  ///
  /*--cef()--*/
  virtual CefPoint GetPoint() =0;

  ///
  // Set a point value.
  ///
  /*--cef()--*/
  virtual bool SetPoint(const CefPoint& val) =0;

  ///
  // Return a point value by out-param.
  ///
  /*--cef()--*/
  virtual void GetPointByRef(CefPoint& val) =0;


  // STRUCT LIST VALUES

  // Test both with and without a typedef.
  typedef std::vector<CefPoint> PointList;

  ///
  // Set a point list vlaue.
  ///
  /*--cef()--*/
  virtual bool SetPointList(const std::vector<CefPoint>& val) =0;

  ///
  // Return a point list value by out-param.
  ///
  /*--cef(count_func=val:GetPointListSize)--*/
  virtual bool GetPointListByRef(PointList& val) =0;

  ///
  // Return the number of points that will be output above.
  ///
  /*--cef()--*/
  virtual size_t GetPointListSize() = 0;


  // LIBRARY-SIDE OBJECT VALUES

  ///
  // Return an new library-side object.
  ///
  /*--cef()--*/
  virtual CefRefPtr<CefTranslatorTestObject> GetObject(int val) =0;

  ///
  // Set an object. Returns the value from CefTranslatorTestObject::GetValue().
  // This tests input and execution of a library-side object type.
  ///
  /*--cef()--*/
  virtual int SetObject(CefRefPtr<CefTranslatorTestObject> val) =0;

  ///
  // Set an object. Returns the object passed in. This tests input and output
  // of a library-side object type.
  ///
  /*--cef()--*/
  virtual CefRefPtr<CefTranslatorTestObject> SetObjectAndReturn(
      CefRefPtr<CefTranslatorTestObject> val) =0;

  ///
  // Set a child object. Returns the value from
  // CefTranslatorTestObject::GetValue(). This tests input of a library-side
  // child object type and execution as the parent type.
  ///
  /*--cef()--*/
  virtual int SetChildObject(CefRefPtr<CefTranslatorTestObjectChild> val) =0;

  ///
  // Set a child object. Returns the object as the parent type. This tests input
  // of a library-side child object type and return as the parent type.
  ///
  /*--cef()--*/
  virtual CefRefPtr<CefTranslatorTestObject> SetChildObjectAndReturnParent(
      CefRefPtr<CefTranslatorTestObjectChild> val) =0;


  // LIBRARY-SIDE OBJECT LIST VALUES

  // Test both with and without a typedef.
  typedef std::vector<CefRefPtr<CefTranslatorTestObject> > ObjectList;

  ///
  // Set an object list vlaue.
  ///
  /*--cef()--*/
  virtual bool SetObjectList(
      const std::vector<CefRefPtr<CefTranslatorTestObject> >& val,
      int val1, int val2) =0;

  ///
  // Return an object list value by out-param.
  ///
  /*--cef(count_func=val:GetObjectListSize)--*/
  virtual bool GetObjectListByRef(ObjectList& val, int val1, int val2) =0;

  ///
  // Return the number of object that will be output above.
  ///
  /*--cef()--*/
  virtual size_t GetObjectListSize() = 0;


  // CLIENT-SIDE OBJECT VALUES

  ///
  // Set an object. Returns the value from CefTranslatorTestHandler::GetValue().
  // This tests input and execution of a client-side object type.
  ///
  /*--cef()--*/
  virtual int SetHandler(CefRefPtr<CefTranslatorTestHandler> val) =0;

  ///
  // Set an object. Returns the handler passed in. This tests input and output
  // of a client-side object type.
  ///
  /*--cef()--*/
  virtual CefRefPtr<CefTranslatorTestHandler> SetHandlerAndReturn(
      CefRefPtr<CefTranslatorTestHandler> val) =0;

  ///
  // Set a child object. Returns the value from
  // CefTranslatorTestHandler::GetValue(). This tests input of a client-side
  // child object type and execution as the parent type.
  ///
  /*--cef()--*/
  virtual int SetChildHandler(CefRefPtr<CefTranslatorTestHandlerChild> val) =0;

  ///
  // Set a child object. Returns the object as the parent type. This tests
  // input of a client-side child object type and return as the parent type.
  ///
  /*--cef()--*/
  virtual CefRefPtr<CefTranslatorTestHandler> SetChildHandlerAndReturnParent(
      CefRefPtr<CefTranslatorTestHandlerChild> val) =0;


  // CLIENT-SIDE OBJECT LIST VALUES

  // Test both with and without a typedef.
  typedef std::vector<CefRefPtr<CefTranslatorTestHandler> > HandlerList;

  ///
  // Set an object list vlaue.
  ///
  /*--cef()--*/
  virtual bool SetHandlerList(
      const std::vector<CefRefPtr<CefTranslatorTestHandler> >& val,
      int val1, int val2) =0;

  ///
  // Return an object list value by out-param.
  ///
  /*--cef(count_func=val:GetObjectListSize)--*/
  virtual bool GetHandlerListByRef(
      HandlerList& val,
      CefRefPtr<CefTranslatorTestHandler> val1,
      CefRefPtr<CefTranslatorTestHandler> val2) =0;

  ///
  // Return the number of object that will be output above.
  ///
  /*--cef()--*/
  virtual size_t GetHandlerListSize() = 0;
};

///
// Library-side test object.
///
/*--cef(source=library,no_debugct_check)--*/
class CefTranslatorTestObject : public CefBase {
 public:
  ///
  // Create the test object.
  ///
  /*--cef()--*/
  static CefRefPtr<CefTranslatorTestObject> Create(int value);

  ///
  // Return a value.
  ///
  /*--cef()--*/
  virtual int GetValue() =0;

  ///
  // Set a value.
  ///
  /*--cef()--*/
  virtual void SetValue(int value) =0;
};

///
// Library-side child test object.
///
/*--cef(source=library,no_debugct_check)--*/
class CefTranslatorTestObjectChild : public CefTranslatorTestObject {
 public:
  ///
  // Create the test object.
  ///
  /*--cef()--*/
  static CefRefPtr<CefTranslatorTestObjectChild> Create(int value,
                                                        int other_value);

  ///
  // Return a value.
  ///
  /*--cef()--*/
  virtual int GetOtherValue() =0;

  ///
  // Set a value.
  ///
  /*--cef()--*/
  virtual void SetOtherValue(int value) =0;
};

///
// Another library-side child test object.
///
/*--cef(source=library,no_debugct_check)--*/
class CefTranslatorTestObjectChildChild : public CefTranslatorTestObjectChild {
 public:
  ///
  // Create the test object.
  ///
  /*--cef()--*/
  static CefRefPtr<CefTranslatorTestObjectChildChild> Create(
      int value,
      int other_value,
      int other_other_value);

  ///
  // Return a value.
  ///
  /*--cef()--*/
  virtual int GetOtherOtherValue() =0;

  ///
  // Set a value.
  ///
  /*--cef()--*/
  virtual void SetOtherOtherValue(int value) =0;
};

///
// Client-side test object.
///
/*--cef(source=client,no_debugct_check)--*/
class CefTranslatorTestHandler : public virtual CefBase {
 public:
  ///
  // Return a value.
  ///
  /*--cef()--*/
  virtual int GetValue() =0;
};

///
// Client-side child test object.
///
/*--cef(source=client,no_debugct_check)--*/
class CefTranslatorTestHandlerChild : public CefTranslatorTestHandler {
 public:
  ///
  // Return a value.
  ///
  /*--cef()--*/
  virtual int GetOtherValue() =0;
};

#endif  // CEF_INCLUDE_TEST_CEF_TEST_H_
